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Query: EC:2.7.7.6 (
RNA polymerase
)
34,946
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The fixation of tRNA to Escherichia coli
RNA polymerase
has been investigated. Bound and free tRNA have been separated and quantified after filtration through cellulose nitrate filters, centrifugation or sucrose gradients or electrophoresis in polyacrylamide gels. We detect no differences between the fixation of E. coli
fMet
-tRNAfMet, Met-tRNAmMet or uncharged unfractionated tRNA to
RNA polymerase
. Tight complexes, with a long residence time, are formed between core enzyme and tRNA with a dissociation constant of less than 1 nM. Complexes exist between tRNA and both monomer and dimer forms of the core enzyme. In the monomer complex, one tRNA is bound per alpha 2 beta beta' unit, whereas in the dimer complex only 0.5 tRNA molecule is fixed per alpha 2 beta beta' unit. In contrast to the core enzyme, very little tRNA fixes tightly to the holoenzyme at salt concentrations greater than 80 mM. At lower salt concentrations tRNA fixation results in a loss of sigma subunit from the holo enzyme to the resulting core enzyme where it binds tightly. DNA fixation reduces the binding of tRNA to
RNA polymerase
and tRNA fixation reduces the binding of DNA. However, binding of DNA to polymerase is not competitive with binding of tRNA, and ternary complexes between
RNA polymerase
, DNA and tRNA are shown to exist. Our results are discussed in relation to other studies concerning the effects of tRNA upon
RNA polymerase
.
...
PMID:On the binding of tRNA to Escherichia coli RNA polymerase. 38 19
E. coli
fMet
-tRNAfMEet and E. coli RNA plymerase (
RNA nucleotidyltransferase
;
EC 2.7.7.6
;
nucleoside-triphosphate:RNA nucleotidyltransferase
) form a 1:1 complex with an apparent association constant of 9.0 X 10(6)M-1 at 37 degrees. The affinity of polymerase to tRNA depends on the tRNA as well as the formyl methionine moiety. Core polymerase has a greatly reduced affinity for initiator tRNA. Optimal binding conditions are similar to those that are also optimal for binding initiator tRNA to ribosomes. Binding of initiator tRNA to polymerase stimulates the transcription of lambda plac DNA, as determined in a crude cell-free system for beta-galactosidase (EC 3.2.1.23; beta-D-galactoside galactohydrolase) synthesis as well as in a highly purified transcription system.
...
PMID:Specific binding of formylated initiator-tRNA to Escherichia coli RNA polymerase. 78 83
To identify the proteins of the 30S ribosomal subunit of E coli that neighbor mRNA in the ternary initiation complex (mRNA*30S subunit*tRNA(
fMet
), we used an affinity cross-linking approach in which photoactivated groups were attached to different positions along the mRNA chain. A series of mini-genes originating from the 5'-end region of the cro gene of lambda bacteriophage were constructed as templates for mini-mRNA synthesis. Two strategies were used to introduce photo-reactive agents into the message. According to the first, two transcripts were isolated from E coli and chemically derivatized at their 5'-ends with a photoinducible diaziril group. One of these messages allowed for localization of the 5'-end of the Shine-Dalgarno sequence while the other one allowed for labeling of the ribosome at the 5'-end side of the initiation AUG codon in the P site. According to the second approach, 5-azidouridine (5N3U) was randomly incorporated into mRNA transcripts during a T7
RNA polymerase
catalyzed reaction by using a mixture of 5N3UTP and UTP. A message that had U residues at either -4, -3, -1, +2 and +14, +19, +20 positions was used (A from cro AUG is +1). Whereas cross-links with the 5N3U transcripts were essentially 'zero-length', the 5'-derivatized transcripts were covalently attached to ribosomal components about 14 A from the 5'-end. We found that proteins S1, S7, S5, S3 and S4 compose, or were close to, the ribosomal mRNA-binding site.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Identification of the Escherichia coli 30S ribosomal subunit protein neighboring mRNA during initiation of translation. 137 79
An in vitro mixed transcription system was employed to examine the possible alteration of the promoter selectivity of Escherichia coli
RNA polymerase
by specific tRNAs. Transcription in vitro was inhibited by most of the tRNAs examined, although the extent of the inhibition differed with the tRNA species. The inhibition by tRNAs was due to competition with DNA for binding
RNA polymerase
. This inhibitory effect remained after charging of the tRNAs with amino acids. The charging of tRNAfMet with
fMet
, but not with Met, abolished its inhibitory effect, and instead gave a stimulatory effect on the transcription from some promoters. These observations suggest that
fMet
-tRNAfMet plays a specific regulatory role in the coupling of transcription to translation.
...
PMID:Promoter selectivity of Escherichia coli RNA polymerase: alteration by fMet-tRNAfMet. 353 31
A simplified DNA-directed in vitro system which measures synthesis of the NH2-terminal dipeptides of gene products has been used to study the expression of rpoD, the gene coding for the sigma subunit of Escherichia coli
RNA polymerase
. The rpoD gene is part of a complex operon which also includes the genes for ribosomal protein S21 (rpsU) and primase (dnaG). Primary promoters have been identified upstream of the structural genes, but there are secondary (internal) promoters within the dnaG gene that are involved in the expression of rpoD. Significant expression of the rpsU and rpoD genes was observed in the in vitro dipeptide system using plasmid pBS105, which contains both external and internal promoters. With plasmid pMRG-1, which contains only the internal promoters, only rpoD expression was observed. From either template, synthesis of the NH2-terminal dipeptide of sigma,
fMet
-Glu, is stimulated about threefold by the E. coli nusA gene product. In addition, NusA protein stimulates synthesis of the entire sigma protein in a defined in vitro system. NusA protein has no effect on the expression of the upstream gene rpsU, and the stimulation of rpoD expression by NusA protein is at the level of transcription. The results are consistent with the known role of NusA protein in modulating transcription at pause or attenuation sites.
...
PMID:In vitro stimulation of Escherichia coli RNA polymerase sigma subunit synthesis by NusA protein. 388 85
Bacteriophage Qbeta RNA directs the cell-free synthesis of two
fMet
-containing dipeptides prior to the first round of ribosomal translocation. One of these,
fMet
-Ala, corresponds to the initial segment of the Qbeta coat protein. In the present work we take advantage of the fact that translation of the Qbeta
RNA polymerase
cistron is repressed by its coat protein to correlate the other peptide,
fMet
-Ser, with the Qbeta
RNA polymerase
gene. Our experiments show that repression affects translation of the first two codons of the polymerase cistron, thereby isolating the effect of Qbeta coat repressor. Further studies, using single rounds of translocation of the Qbeta mRNA and codon-specific tRNAs, allow us to predict the first three amino acids of the Qbeta
RNA polymerase
protein,
fMet
-Ser-Lys, and to suggest that the initiation region of the Qbeta
RNA polymerase
cistron has the sequence ...AUG.UC[unk].AA[unk]...
...
PMID:Characterization of the initial peptide of Q-beta RNA polymerase and control of its synthesis. 527 68
The restriction map of a BamHI DNA fragment that contains the recA gene of Escherichia coli has been established and a large portion of the fragment's nucleotide sequence has been determined. The coding region of the recA gene contains 1059 nucleotide residues and encodes a single protein of 353 amino acid residues. The amino acid sequence of the first five residues of the NH2 terminus of the recA protein agrees with the sequence predicted from the DNA sequence except for the absence of
formylmethionine
in the purified protein. Immediately after the coding sequence, there is a G+C-rich sequence with dyad symmetry followed by an A+T-rich sequence. These could signal termination of transcription. The site of initiation for synthesis in vitro of the recA messenger RNA has been determined by analysis of the 5' nucleotide sequence of [gamma-32P]ATP-labeled transcripts. The promoter region shos a high degree of symmetry and contains sequences commonly found in recognition and binding sites for
RNA polymerase
.
...
PMID:Organization of the recA gene of Escherichia coli. 624 54
Plasmids pNF1337 and pNF1341, which contain part of the L10 operon including the
RNA polymerase
beta-subunit gene, have been used as templates in vitro to investigate expression of the beta-subunit gene. For these studies, the synthesis of the first dipeptide of the beta subunit,
fMet
-Val, was measured instead of that of the entire protein. By using this dipeptide system, we studied the effects of
RNA polymerase
holoenzyme and L factor (nus A gene product) on fMET-Val synthesis and compared the relative effects of the primary and secondary promoters in the L10 operon on expression of the beta-subunit gene. The results show that the inhibitory effect of
RNA polymerase
on beta-subunit synthesis and the stimulatory effect of L factor occur before formation of the first dipeptide bond. In this in vitro system, the secondary promoters account for about 50% of the total
fMet
-Val synthesized. Although the primary promoter is sensitive to guanosine 5'-diphosphate 3'-diphosphate in vitro, the secondary promoters are not affected by this nucleotide.
...
PMID:In vitro synthesis of the first dipeptide of the beta subunit of Escherichia coli RNA polymerase. 628 8
Using the plasmid pNF1337 as template, a mRNA preparation has been obtained that directs the in vitro synthesis of
fMet
-Val, the N-terminal dipeptide of the beta subunit of
RNA polymerase
.
RNA polymerase
holoenzyme specifically inhibits the mRNA-directed synthesis of
fMet
-Val showing that the autoregulation by
RNA polymerase
of beta, beta 1 synthesis is at the level of translation. L factor (nusA gene product) stimulates the synthesis of
fMet
-Val from a DNA template but not from mRNA. Rifampicin has no effect on the mRNA-directed synthesis of
fMet
-Val or the ability of
RNA polymerase
to inhibit
fMet
-Val synthesis.
...
PMID:Translational control of the expression of the beta subunit gene of E. coli RNA polymerase. 630 1
Escherichia coli
fMet
-tRNAfMet alters the pattern of promoter selection of E. coli
RNA polymerase
(
RNA nucleotidyltransferase
, nucleosidetriphosphate:
RNA nucleotidyltransferase
;
EC 2.7.7.6
), affecting RNA synthesis from the rRNA, suIII+tRNA, and lac promoters in different ways. The in vitro synthesis of the stable RNA species is selectively decreased, whereas that of lac RNA from both the wild-type and mutant UV5 promoters is selectively increased at high ionic strength. The functional effect of
fMet
-tRNAfMet resembles that of the nucleotide guanosine 3'-diphosphate 5'-diphosphate (ppGpp). This nucleotide competes with the binding of
fMet
-tRnafMet to
RNA polymerase
.
...
PMID:Formylmethionyl-tRNA alters RNA polymerase specificity. 698 70
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